The regenerative cooling technology is a promising approach for effective thermal protection of propulsion and power-generation systems. A mathematical model has been used to examine fluid flows and heat transfer of the aviation kerosene RP-3 with endothermic fuel pyrolysis at a supercritical pressure of 5 MPa. A pyrolytic reaction mechanism, which consists of 18 species and 24 elementary reactions, is incorporated to account for fuel pyrolysis. Detailed model validations are conducted against a series of experimental data, including fluid temperature, fuel conversion rate, various product yields, and chemical heat sink, fully verifying the accuracy and reliability of the model. Effects of fuel pyrolysis and inlet flow velocity on flow dyna...
The pyrolysis mechanism of fuel under supercritical conditions is an important concern for developin...
As modern hypersonic aircraft designs evolve, increasing heat sink capabilities are required. One p...
Hypersonic flight is expected to be achieved in the coming years by use of Supersonic Combustion RAM...
AbstractThe regenerative cooling technology is a promising approach for effective thermal protection...
Purpose: This paper aims to comprehensively clarify the research status of thermal transport of supe...
The fluid flow and heat transfer of hydrocarbon fuel play a significant role in developing regenerat...
Regenerative cooling of aviation kerosene plays an important role for thermal protection of scramjet...
Every generation of advanced military aircraft fly higher and faster than previous generations. With...
Pyrolysis of hydrocarbon fuel plays an important role in the regenerative cooling process. In this a...
Thermal cracking and endothermicity of China No. 3 aviation kerosene were studied experimentally und...
The now and heat transfer characteristics of China No. 3 aviation kerosene in a heated curved tube u...
In the present paper, numerical study of flow and heat transfer properties of RP-3 kerosene at liqui...
Convective heat transfer of aviation kerosene at supercritical pressures in a vertical upward tube o...
In this research, a thermal analysis method has been developed to analyze the heat transfer process ...
This study experimentally investigated convective heat transfer performances of China RP-3 kerosene ...
The pyrolysis mechanism of fuel under supercritical conditions is an important concern for developin...
As modern hypersonic aircraft designs evolve, increasing heat sink capabilities are required. One p...
Hypersonic flight is expected to be achieved in the coming years by use of Supersonic Combustion RAM...
AbstractThe regenerative cooling technology is a promising approach for effective thermal protection...
Purpose: This paper aims to comprehensively clarify the research status of thermal transport of supe...
The fluid flow and heat transfer of hydrocarbon fuel play a significant role in developing regenerat...
Regenerative cooling of aviation kerosene plays an important role for thermal protection of scramjet...
Every generation of advanced military aircraft fly higher and faster than previous generations. With...
Pyrolysis of hydrocarbon fuel plays an important role in the regenerative cooling process. In this a...
Thermal cracking and endothermicity of China No. 3 aviation kerosene were studied experimentally und...
The now and heat transfer characteristics of China No. 3 aviation kerosene in a heated curved tube u...
In the present paper, numerical study of flow and heat transfer properties of RP-3 kerosene at liqui...
Convective heat transfer of aviation kerosene at supercritical pressures in a vertical upward tube o...
In this research, a thermal analysis method has been developed to analyze the heat transfer process ...
This study experimentally investigated convective heat transfer performances of China RP-3 kerosene ...
The pyrolysis mechanism of fuel under supercritical conditions is an important concern for developin...
As modern hypersonic aircraft designs evolve, increasing heat sink capabilities are required. One p...
Hypersonic flight is expected to be achieved in the coming years by use of Supersonic Combustion RAM...